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Polyphenylene sulfide alloy composition

a polyphenylene sulfide and alloy technology, applied in the direction of insulated conductors/cables, cables, insulated conductors, etc., can solve the problems of significant quantities of hydrogen chloride and heavy metal residues, the difficulty of pvc resin disposal and recycling is recognized as serious problems, and the ability to achieve higher temperature capability and environmental concerns

Inactive Publication Date: 2003-08-19
DUPONT POLYMERS INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Thermoplastic polyvinyl chloride (PVC) used in high volume in automotive wiring provides chemical and flame resistance, insulation capability, and reasonable toughness, but suffers from higher temperature capability and environmental concern.
The difficulties of disposal and recycle of PVC resin are recognized as serious problems today.
Incineration results in formation of significant quantities of hydrogen chloride and heavy metal residues.
Additionally, PVC is not compatible with other plastics used in manufacture of automobiles, which creates problems during recycling operations.
Addition of halogen can provide flame resistance but introduces the environmental issue described above.
Crosslinked ethylene vinyl acetate copolymers (EVA) filled with hydrated fillers provide flame retardancy without halogen but modest mechanical toughness precludes thin automotive coatings for space savings in today's tightly configured engine compartments.
Crosslinking by either peroxide or irradiation adds cost.
Its poor flexibility can be seen in low impact strength and low elongation at break.
Thus, PPS use has been limited in wire and cable applications that require high temperature capability, impact resistance, and flexibility, such as wiring under the hood of automobiles.
Neither Saltman nor Toray address suitable polyphenylene sulfide alloy compositions for flexible, high temperature, flame retardant applications such as wire and cable.

Method used

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  • Polyphenylene sulfide alloy composition
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Examples

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examples

The polymer alloys made according to this invention are manufactured by melt blending the three primary components of a poly(phenylene sulfide) resin, a polymer grafting agent, and an ethylene copolymer along with other additives using a 30 mm twin screw extruder under the equipment conditions outlined in Table 1. A twin screw extruder provides the high shear and residence time in the melt state necessary to provide the mixing required to produce an acceptable alloy. Other mixing equipment designed for use with polymer melts that can provide a similar high shear mixing would also be capable of manufacturing the alloys for this invention. This includes but is not limited to Banbury mixers, Buss co-kneaders, and two-roll-mills.

The steps for manufacturing the wire coating described by this invention are as follows: 1) Tumble mix a pellet blend of the various polymer components along with any additives. 2) Melt blend the mixture from step 1 using a twin screw extruder or similar device....

examples 10-14--

Additional GMA:MAA Molar Ratios Tested

The following compounds are all based on Ryton.RTM. GR02 PPS, the same PPS used in the earlier examples, and were prepared and tested as described above. Each compound contained 60 wt % GR02 and 0.3 wt % Irganox 1010 stabilizer, and only varied in the EnBAGMA-5: ionomer content. Elongation at break was measured for each.

Example (%) GMA:MAA molar ratio Elongation at Break 10 2.0 160 11 2.5 180 12 3.0 170 13 4.0 170 14 5.0 140

The data from the above examples have been plotted in FIG. 1.

As the data show, the GMA:MAA ratio is a key parameter for maximizing elongation at break for the alloys which use the GR02 resin as the base. (Elongation at break is a critical parameter for wire and cable compounds, with certain specifications requiring a minimum of 150%). The data indicate a broad range of about 1.0 to about 5.5 is preferable for GMA:MAA ratio.

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Abstract

The present invention relates to polymer compositions containing polyphenylene sulfide, a polymeric grafting agent and an ethylene copolymer. The polymeric grafting agent is a copolymer of at least about 50% by weight ethylene, about 0.5% to about 15% by weight of a first reactive moiety selected from the group consisting of: (i) an unsaturated epoxide of 4-11 carbon atoms, (ii) an unsaturated isocyanate of 2-11 carbon atoms, (iii) an alkoxy or alkyl silane wherein the alkyl group is from 1-12 carbon atoms, and (iv) an oxazoline; and about 0 to about 49% by weight of a second moiety selected from at least one of an alkyl acrylate, alkyl methacrylate, vinyl ether, carbon monoxide, and sulfur dioxide, where the alkyl and ether groups are of 1-12 carbon atoms. The ethylene copolymer comprises about 1% to about 20% by weight of an ethylene copolymer which comprises at least about 50% by weight ethylene, about 1% to about 35% by weight of an acid-containing unsaturated mono-carboxylic acid, and about 0 to about 49% by weight of a moiety selected from at least one of alkyl acrylate, alkyl methacrylate, vinyl ether, carbon monoxide, and sulfur dioxide, and further wherein the acid groups are neutralized from 0-100% by a metal ion. The molar ratio of polymeric grafting agent to ethylene copolymer preferably ranges from about 1.0 to about 5.5.

Description

BACKGROUND OF THE INVENTION1. Field of the InventionThis invention relates to thermoplastic polymer alloy compositions useful in wire and coating applications. This invention specifically relates to polyphenylene sulfide alloy compositions that are useful in wire coating applications requiring high temperature resistance and flame retardancy.2. Description of Related ArtTemperature requirements for the insulation materials of wire and cable used under the hood of today's high performance cars continue to increase. Thermoplastic polyvinyl chloride (PVC) used in high volume in automotive wiring provides chemical and flame resistance, insulation capability, and reasonable toughness, but suffers from higher temperature capability and environmental concern. The difficulties of disposal and recycle of PVC resin are recognized as serious problems today. Incineration results in formation of significant quantities of hydrogen chloride and heavy metal residues. Additionally, PVC is not compat...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): C08L81/00C08L81/02H01B3/44H01B3/30C08L23/08H01B7/29H01B7/295H01B13/14
CPCC08L81/02H01B3/301H01B3/441C08L2205/05C08L2666/04
Inventor DEAN, DAVID M.ARHART, RICHARD JAMES
Owner DUPONT POLYMERS INC
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